seaweedfs/weed/command/backup.go

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package command
import (
"fmt"
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"github.com/chrislusf/seaweedfs/weed/security"
"github.com/chrislusf/seaweedfs/weed/server"
"github.com/spf13/viper"
"github.com/chrislusf/seaweedfs/weed/operation"
"github.com/chrislusf/seaweedfs/weed/storage"
)
var (
s BackupOptions
)
type BackupOptions struct {
master *string
collection *string
dir *string
volumeId *int
}
func init() {
cmdBackup.Run = runBackup // break init cycle
s.master = cmdBackup.Flag.String("server", "localhost:9333", "SeaweedFS master location")
s.collection = cmdBackup.Flag.String("collection", "", "collection name")
s.dir = cmdBackup.Flag.String("dir", ".", "directory to store volume data files")
s.volumeId = cmdBackup.Flag.Int("volumeId", -1, "a volume id. The volume .dat and .idx files should already exist in the dir.")
}
var cmdBackup = &Command{
UsageLine: "backup -dir=. -volumeId=234 -server=localhost:9333",
Short: "incrementally backup a volume to local folder",
Long: `Incrementally backup volume data.
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It is expected that you use this inside a script, to loop through
all possible volume ids that needs to be backup to local folder.
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The volume id does not need to exist locally or even remotely.
This will help to backup future new volumes.
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Usually backing up is just copying the .dat (and .idx) files.
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But it's tricky to incrementally copy the differences.
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The complexity comes when there are multiple addition, deletion and compaction.
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This tool will handle them correctly and efficiently, avoiding unnecessary data transportation.
`,
}
func runBackup(cmd *Command, args []string) bool {
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weed_server.LoadConfiguration("security", false)
grpcDialOption := security.LoadClientTLS(viper.Sub("grpc"), "client")
if *s.volumeId == -1 {
return false
}
vid := storage.VolumeId(*s.volumeId)
// find volume location, replication, ttl info
lookup, err := operation.Lookup(*s.master, vid.String())
if err != nil {
fmt.Printf("Error looking up volume %d: %v\n", vid, err)
return true
}
volumeServer := lookup.Locations[0].Url
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stats, err := operation.GetVolumeSyncStatus(volumeServer, grpcDialOption, uint32(vid))
if err != nil {
fmt.Printf("Error get volume %d status: %v\n", vid, err)
return true
}
ttl, err := storage.ReadTTL(stats.Ttl)
if err != nil {
fmt.Printf("Error get volume %d ttl %s: %v\n", vid, stats.Ttl, err)
return true
}
replication, err := storage.NewReplicaPlacementFromString(stats.Replication)
if err != nil {
fmt.Printf("Error get volume %d replication %s : %v\n", vid, stats.Replication, err)
return true
}
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v, err := storage.NewVolume(*s.dir, *s.collection, vid, storage.NeedleMapInMemory, replication, ttl, 0)
if err != nil {
fmt.Printf("Error creating or reading from volume %d: %v\n", vid, err)
return true
}
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if v.SuperBlock.CompactRevision < uint16(stats.CompactRevision) {
if err = v.Compact(0); err != nil {
fmt.Printf("Compact Volume before synchronizing %v\n", err)
return true
}
if err = v.CommitCompact(); err != nil {
fmt.Printf("Commit Compact before synchronizing %v\n", err)
return true
}
v.SuperBlock.CompactRevision = uint16(stats.CompactRevision)
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v.DataFile().WriteAt(v.SuperBlock.Bytes(), 0)
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}
if uint64(v.Size()) > stats.TailOffset {
// remove the old data
v.Destroy()
// recreate an empty volume
v, err = storage.NewVolume(*s.dir, *s.collection, vid, storage.NeedleMapInMemory, replication, ttl, 0)
if err != nil {
fmt.Printf("Error creating or reading from volume %d: %v\n", vid, err)
return true
}
}
defer v.Close()
if err := v.Follow(volumeServer, grpcDialOption); err != nil {
fmt.Printf("Error synchronizing volume %d: %v\n", vid, err)
return true
}
return true
}